A Method of Biophysical Parameter Retrieval at Global Scale by Inversion of a Vegetation Reflectance Model

[1]  G. Suits The calculation of the directional reflectance of a vegetative canopy , 1971 .

[2]  J. Monteith SOLAR RADIATION AND PRODUCTIVITY IN TROPICAL ECOSYSTEMS , 1972 .

[3]  N. Goel,et al.  Inversion of vegetation canopy reflectance models for estimating agronomic variables. I. Problem definition and initial results using the Suits model , 1983 .

[4]  W. Verhoef Light scattering by leaf layers with application to canopy reflectance modelling: The SAIL model , 1984 .

[5]  G. Campbell,et al.  Simple equation to approximate the bidirectional reflectance from vegetative canopies and bare soil surfaces. , 1985, Applied optics.

[6]  Alan H. Strahler,et al.  Invertible canopy reflectance modeling of vegetation structure in semiarid woodland , 1988 .

[7]  A. Kuusk,et al.  A reflectance model for the homogeneous plant canopy and its inversion , 1989 .

[8]  R. Dickinson,et al.  A physical model of the bidirectional reflectance of vegetation canopies: 2. Inversion and validation , 1990 .

[9]  J. C. Price On the information content of soil reflectance spectra , 1990 .

[10]  B. Pinty,et al.  A physical model of the bidirectional reflectance of vegetation canopies , 1990 .

[11]  F. Baret,et al.  PROSPECT: A model of leaf optical properties spectra , 1990 .

[12]  E. Rastetter,et al.  Potential Net Primary Productivity in South America: Application of a Global Model. , 1991, Ecological applications : a publication of the Ecological Society of America.

[13]  Donald W. Deering,et al.  Shinnery oak bidirectional reflectance properties and canopy model inversion , 1992, IEEE Trans. Geosci. Remote. Sens..

[14]  J. C. Price,et al.  Estimating leaf area index from satellite data , 1993, IEEE Trans. Geosci. Remote. Sens..

[15]  H. Rahman,et al.  Coupled surface-atmosphere reflectance (CSAR) model: 2. Semiempirical surface model usable with NOAA advanced very high resolution radiometer data , 1993 .

[16]  Gérard Dedieu,et al.  Methodology for the estimation of terrestrial net primary production from remotely sensed data , 1994 .

[17]  C. Tucker,et al.  Invertibility of a 1-D discrete ordinates canopy reflectance model , 1994 .

[18]  Annick Bricaud,et al.  The POLDER mission: instrument characteristics and scientific objectives , 1994, IEEE Trans. Geosci. Remote. Sens..

[19]  A. Kuusk A multispectral canopy reflectance model , 1994 .

[20]  J.-P. Goutorbe,et al.  HAPEX-Sahel: a large-scale study of land-atmosphere interactions in the semi-arid tropics , 1994 .

[21]  Thomas M. Smith,et al.  A global land primary productivity and phytogeography model , 1995 .

[22]  C. Woodcock,et al.  A hybrid geometric optical-radiative transfer approach for modeling albedo and directional reflectance of discontinuous canopies , 1995 .

[23]  A. Kuusk A fast, invertible canopy reflectance model , 1995 .

[24]  Edwin T. Engman,et al.  Status of remote sensing algorithms for estimation of land surface state parameters , 1995 .

[25]  J. Roujean,et al.  Estimating PAR absorbed by vegetation from bidirectional reflectance measurements , 1995 .

[26]  H. Giordani,et al.  The Land Surface Scheme ISBA within the Météo-France Climate Model ARPEGE. Part I. Implementation and Preliminary Results , 1995 .

[27]  M. S. Moran,et al.  Biophysical parameter estimations using multidirectional spectral measurements , 1995 .

[28]  J. Privette Inversion of a vegetation reflectance model with NOAA AVHRR data , 1996 .

[29]  Jing M. Chen,et al.  Canopy architecture and remote sensing of the fraction of photosynthetically active radiation absorbed by boreal conifer forests , 1996, IEEE Trans. Geosci. Remote. Sens..

[30]  S. Ustin,et al.  Estimating leaf biochemistry using the PROSPECT leaf optical properties model , 1996 .

[31]  A. Strahler,et al.  Classification of ASAS multiangle and multispectral measurements using artificial neural networks , 1996 .

[32]  C. Justice,et al.  A Revised Land Surface Parameterization (SiB2) for Atmospheric GCMS. Part II: The Generation of Global Fields of Terrestrial Biophysical Parameters from Satellite Data , 1996 .

[33]  J. Chen,et al.  Retrieving Leaf Area Index of Boreal Conifer Forests Using Landsat TM Images , 1996 .

[34]  François-Marie Bréon,et al.  Angular signatures of surface reflectances from airborne POLDER data , 1996 .

[35]  P. Bicheron,et al.  Enhanced discrimination of boreal forest covers with directional reflectances from the airborne polarization and directionality of Earth reflectances (POLDER) instrument , 1997 .

[36]  Didier Tanré,et al.  Retrieval of land surface parameters from airborne POLDER bidirectional reflectance distribution function during HAPEX‐Sahel , 1997 .

[37]  Darrel L. Williams,et al.  BOREAS in 1997: Experiment overview, scientific results, and future directions , 1997 .

[38]  Xiaowen Li,et al.  Inversion of the Li-Strahler canopy reflectance model for mapping forest structure , 1997, IEEE Trans. Geosci. Remote. Sens..

[39]  Ranga B. Myneni,et al.  Estimation of global leaf area index and absorbed par using radiative transfer models , 1997, IEEE Trans. Geosci. Remote. Sens..

[40]  M. J. Barnsley,et al.  On the potential for land cover mapping from multiple-view-angle (MVA) remotely-sensed images , 1997 .

[41]  P. Curran,et al.  LIBERTY—Modeling the Effects of Leaf Biochemical Concentration on Reflectance Spectra , 1998 .

[42]  Gregory P. Asner,et al.  Ecological Research Needs from Multiangle Remote Sensing Data , 1998 .